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一氧化氮合酶-3解偶联产生的氧化应激通过慢性压力负荷刺激心脏病理重塑。

Oxidant stress from nitric oxide synthase-3 uncoupling stimulates cardiac pathologic remodeling from chronic pressure load.

作者信息

Takimoto Eiki, Champion Hunter C, Li Manxiang, Ren Shuxun, Rodriguez E Rene, Tavazzi Barbara, Lazzarino Giuseppe, Paolocci Nazareno, Gabrielson Kathleen L, Wang Yibin, Kass David A

机构信息

Division of Cardiology, Department of Medicine, The Johns Hopkins Medical Institutions, Baltimore, Maryland 21205, USA.

出版信息

J Clin Invest. 2005 May;115(5):1221-31. doi: 10.1172/JCI21968. Epub 2005 Apr 14.

DOI:10.1172/JCI21968
PMID:15841206
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1077169/
Abstract

Cardiac pressure load stimulates hypertrophy, often leading to chamber dilation and dysfunction. ROS contribute to this process. Here we show that uncoupling of nitric oxide synthase-3 (NOS3) plays a major role in pressure load-induced myocardial ROS and consequent chamber remodeling/hypertrophy. Chronic transverse aortic constriction (TAC; for 3 and 9 weeks) in control mice induced marked cardiac hypertrophy, dilation, and dysfunction. Mice lacking NOS3 displayed modest and concentric hypertrophy to TAC with preserved function. NOS3(-/-) TAC hearts developed less fibrosis, myocyte hypertrophy, and fetal gene re-expression (B-natriuretic peptide and alpha-skeletal actin). ROS, nitrotyrosine, and gelatinase (MMP-2 and MMP-9) zymogen activity markedly increased in control TAC, but not in NOS3(-/-) TAC, hearts. TAC induced NOS3 uncoupling in the heart, reflected by reduced NOS3 dimer and tetrahydrobiopterin (BH4), increased NOS3-dependent generation of ROS, and lowered Ca(2+)-dependent NOS activity. Cotreatment with BH4 prevented NOS3 uncoupling and inhibited ROS, resulting in concentric nondilated hypertrophy. Mice given the antioxidant tetrahydroneopterin as a control did not display changes in TAC response. Thus, pressure overload triggers NOS3 uncoupling as a prominent source of myocardial ROS that contribute to dilatory remodeling and cardiac dysfunction. Reversal of this process by BH4 suggests a potential treatment to ameliorate the pathophysiology of chronic pressure-induced hypertrophy.

摘要

心脏压力负荷会刺激心肌肥大,常常导致心腔扩张和功能障碍。活性氧(ROS)参与了这一过程。在此我们表明,一氧化氮合酶-3(NOS3)的解偶联在压力负荷诱导的心肌ROS产生以及随之而来的心腔重塑/肥大过程中起主要作用。对照小鼠进行慢性主动脉缩窄(TAC,持续3周和9周)会诱导明显的心脏肥大、扩张和功能障碍。缺乏NOS3的小鼠对TAC表现出适度的向心性肥大且功能得以保留。NOS3基因敲除(NOS3(-/-))的TAC心脏发生的纤维化、心肌细胞肥大和胎儿基因(B型利钠肽和α-骨骼肌肌动蛋白)重新表达较少。在对照TAC心脏中,ROS、硝基酪氨酸和明胶酶(基质金属蛋白酶-2和基质金属蛋白酶-9)的酶原活性显著增加,但在NOS3(-/-)的TAC心脏中则未增加。TAC诱导心脏中NOS3解偶联,表现为NOS3二聚体和四氢生物蝶呤(BH4)减少、NOS3依赖性ROS生成增加以及钙依赖性NOS活性降低。与BH4共同处理可防止NOS3解偶联并抑制ROS,从而导致向心性非扩张性肥大。给予抗氧化剂四氢新蝶呤作为对照的小鼠在TAC反应中未表现出变化。因此,压力过载触发NOS3解偶联,使其成为心肌ROS的主要来源,进而导致扩张性重塑和心脏功能障碍。BH4对这一过程的逆转提示了一种改善慢性压力诱导肥大病理生理学的潜在治疗方法。

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